Abstract
Although pigments of biological origin are intensely researched for their market potentials and health benefits, their stability, from the maturity status of the source material to their processing and products into which the pigments are incorporated and the storage of those products, is shrouded with many problems. Both extrinsic and intrinsic factors affect the prospective arrays of applications of natural pigments such as betalains. Although the maturity of the red beet may not be the major quality trait in sourcing, the various processing steps, starting from the selection of the extraction medium, extraction conditions, product concentration, storage, transportation and incorporation into products, are huge tasks. The extrinsic factors affecting betalain stability include oxygen, temperature, pH, light and chemicals of processing and food products. On the other hand, the intrinsic factors in the red beet, apart from the quality of the source material, are mainly enzymes: β-glucosidases, polyphenoloxidases (PPOs) and peroxidases (PODs). The current chapter is a compilation of research progress made in understanding the factors affecting the stability of betalains, the chemical changes taking place during degradation and their further fate. Improvements in processing/extraction techniques and storage conditions that impart stability to betalain pigments are discussed. Additionally, application of fermentation and other advanced processes used for the preparation of pigments and food formulations are discussed.
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References
Akita, T., Y. Hina, and T. Nishi. 2000. Production of betacyanins by a cell suspension culture of table beet (Beta vulgaris L.). Bioscience, Biotechnology, and Biochemistry 64: 1807–1812.
Akita, T., Y. Hina, and T. Nishi. 2002. New medium composition for high betacyanin production by a cell suspension culture of table beet (Beta vulgaris L.). Bioscience, Biotechnology, and Biochemistry 66: 902–905.
Aronoff, S., and E.M. Aronoff. 1948. Thermal degradation of dehydrated beets. 2. Chromatographic separation of red beet-root pigments. Food Research 13: 59.
Attoe, E.L., and J.H. von Elbe. 1982. Degradation kineticsofbetanine in solutions as influenced by oxygen. Journal of Agricultural and Food Chemistry 30: 708–712.
Attoe, E., and J. Von Elbe. 1985. Oxygen involvement in betanine degradation: Effect of antioxidants. Journal of Food Science 50(1): 106–110.
Azeredo, H. 2009. Betalains: Properties, sources, applications, and stability–a review. International Journal of Food Science and Technology 44(12): 2365–2376.
Azeredo, H.M.C., A.N. Santos, et al. 2007. Betacyanin stability during processing and storage of a microencapsulated red beetroot extract. American Journal of Food Technology 2(4): 307–312.
Baráth, A., A. Halász, E. Neméth, and Z. Zalán. 2004. Selection of LAB strains for fermented red beet juice production. European Food Research and Technology 218: 184–187.
Bokern, M., and D. Strack. 1988. Synthesis of hydroxycinnamic acid esters of betacyanins via 1-O-acylglucosides of hydroxycinnamic acids by protein preparations from cell suspension cultures of Chenopodium rubrum and petals of Lampranthus sociorum. Planta 174(1): 101–105.
Buruleanu, L., I. Manea, M.G. Bratu, D. Avram, and C.L. Nicole. 2009. Effects of prebiotics on the quality of lactic acid fermented vegetable juices. Ovidius University Annals of Chemistry 20: 102–107.
Butera, D., L. Tesoriere, et al. 2002. Antioxidant activities of Sicilian prickly pear (Opuntia ficus indica) fruit extracts and reducing properties of its betalains: Betanin and indicaxanthin. Journal of Agricultural and Food Chemistry 50(23): 6895–6901.
Cai, Y., M. Sun, et al. 1998. Colorant properties and stability of Amaranthus betacyanin pigments. Journal of Agricultural and Food Chemistry 46(11): 4491–4495.
Cai, M.S., et al. 2001a. Identification and distribution of simple and acylated betacyanins in the Amaranthaceae. Journal of Agricultural and Food Chemistry 49(4): 1971–1978.
Cai, Y., M. Sun, et al. 2001b. Chemical stability and colorant properties of betaxanthin pigments from Celosia argentea. Journal of Agricultural and Food Chemistry 49(9): 4429–4435.
Cai, Y., M. Sun, et al. 2003. Antioxidant activity of betalains from plants of the Amaranthaceae. Journal of Agricultural and Food Chemistry 51(8): 2288–2294.
Castellar R., J.M. Obón, M. Alacid, and J.A. Fernández-López. 2003. Color properties and stability of betacyanins from Opuntia fruits. Journal of Agricultural and Food Chemistry 51: 2772–2776.
Czyżowska, A., E. Klewicka, et al. 2006. The influence of lactic acid fermentation process of red beet juice on the stability of biologically active colorants. European Food Research and Technology 223(1): 110–116.
Driver, M.G., and F.J. Francis. 1979. Stability of phytolaccanin, betanin and FD&C Red #2 in dessert gels. Journal of Food Science 44: 518–520.
Gandía-Herrero, F., M. Jiménez-Atiénzar, et al. 2010. Stabilization of the bioactive pigment of Opuntia fruits through maltodextrin encapsulation. Journal of Agricultural and Food Chemistry 58(19): 10646–10652.
Gentile, C., L. Tesoriere, et al. 2004. Antioxidant betalains from cactus pear (Opuntia ficus-indica) inhibit endothelial ICAM-1 expression. Annals of the New York Academy of Sciences 1028(1): 481–486.
Hamburg, A., and A. Hamburg. 1991. The stability properties of red beet pigments: Influence of pH, temperature and some stabilizers. European Food Research and Technology 56: 1693–1695.
Herbach, K.M., F.C. Stintzing, et al. 2004. Impact of thermal treatment on color and pigment pattern of red beet (Beta vulgaris L.) preparations. Journal of Food Science 69(6): C491–C498.
Herbach, K., F. Stintzing, et al. 2005. Identification of heat-induced degradation products frompurified betanin, phyllocactin and hylocerenin by high-performance liquid chromatography/electrospray ionization mass spectrometry. Rapid Communications in Mass Spectrometry 19: 2603–2616.
Herbach, K.M., F.C. Stintzing, et al. 2006. Betalain stability and degradation – structural and chromatic aspects. Journal of Food Science 71(4): R41–R50.
Herbach, K.M., C. Maier, et al. 2007. Effects of processing and storage on juice colour and betacyanin stability of purple pitaya (Hylocereus polyrhizus) juice. European Food Research and Technology 224(5): 649–658.
Heuer S., S. Richter, J.W. Metzger, V. Wray, M. Nimtzt, and D. Strack. 1994. Betacyanins from bracts of Bougainvillea glabra. Phytochemistry 37: 761–767.
Heuer, S., V. Wray, J.W. Metzger, and D. Strack. 1992. Betacyanins from flowers of Gomphrena globosa. Phytochemistry 31: 1801–1807.
Jackman, R and J. Smith. 1996. Anthocyanins and betalains. In Natural food colorants, eds. G. Hendry, J. Houghton, 245–309. Natural food colorants. Glaslow, UK: Blackie Academic & Professional.
James, R.N. 1993. Rates and possible mechanism of light-dependent degradation of pigments in detritus derived from phytoplankton. Journal of Marine Research 51(1): 155–179.
Jiratanan, T., and R.H. Liu. 2004. Antioxidant activity of processed table beets (Beta vulgaris var, conditiva) and green beans (Phaseolus vulgaris L.). Journal of Agricultural and Food Chemistry 52: 2659–2670.
Kanner, J., S. Harel, et al. 2001. Betalains a new class of dietary cationized antioxidants. Journal of Agricultural and Food Chemistry 49(11): 5178–5185.
Kaur, C., and H.C. Kapoor. 2002. Antioxidant activity and total phenolic content of some Asian vegetables. International Journal of Food Science and Technology 37(2): 153–161.
Kishima, Y., A. Shimaya, et al. 1995. Evidence that blue light induces betalain pigmentation in Portulaca callus. Plant Cell, Tissue and Organ Culture 43(1): 67–70.
Lee, C.H., M. Wettasinghe, et al. 2005. Betalains, phase II enzyme-inducing components from red beetroot (Beta vulgaris L.) extracts. Nutrition and Cancer 53(1): 91–103.
Liu, X., Y. Gao, H. Xu, Q. Hao, G. Liu, and Q. Wang. 2010. Inactivation of peroxidase and olyphenol oxidase in red beet (Beta vulgaris L.) extract with continuous high pressure carbon dioxide. Food Chemistry 119: 108–113.
López, N., E. Puértolas, et al. 2009. Enhancement of the extraction of betanine from red beetroot by pulsed electric fields. Journal of Food Engineering 90(1): 60–66.
Martinez, L., I. Cilla, J.A. Beltran, and P. Roncales. 2006. Comparative effect of red yeast rice (Monascus purpureus), red beet root (Beta vulgaris) and betanin (E-162) on colour and consumer acceptability of fresh pork sausages packaged in a modified atmosphere. Journal of the Science of Food and Agriculture 86: 500–508.
Martinez-Parra, J., and R. Munoz. 2001. Characterization of betacyanin oxidation catalyzed by a peroxidase from Beta vulgaris L. roots. Journal of Agricultural and Food Chemistry 49(8): 4064–4068.
Moßhammer, M.R., F.C. Stintzing, et al. 2005a. Development of a process for the production of a betalain-based colouring foodstuff from cactus pear. Innovative Food Science and Emerging Technologies 6(2): 221–231.
Moßhammer, M., F. Stintzing, et al. 2005b. Colour studies on fruit juice blends from Opuntia and Hylocereus cacti and betalain-containing model solutions derived therefrom. Food Research International 38(8–9): 975–981.
Nemzer, B., Z. Pietrzkowski, A. Spórna, P.W. Stalica, W. Thresher, T. Michałowski, and S. Wybraniec. 2011. Betalainic and nutritional profiles of pigment-enriched red beet root (Beta vulgaris L.) dried extracts. Food Chemistry 127: 42–53.
Pavokovic, D., G. Rusak, V. Besendorfer, and M. Krsnik-Rasol. 2009. Light-dependent betanin production by transformed cells of sugar beet. Food Technology and Biotechnology 47: 153–158.
Pitalua, E., M. Jimenez, et al. 2010. Antioxidative activity of microcapsules with beetroot juice using gum Arabic as wall material. Food and Bioproducts Processing 88(2–3): 253–258.
Reddy, M.K., R.L. Alexander-Lindo, et al. 2005. Relative inhibition of lipid peroxidation, cyclooxygenase enzymes, and human tumor cell proliferation by natural food colors. Journal of Agricultural and Food Chemistry 53: 9268–9273.
Reynoso, R., F. Garcia, et al. 1997. Stability of betalain pigments from a cactacea fruit. Journal of Agricultural and Food Chemistry 45: 2884–2889.
Saénz, C., S. Tapia, et al. 2009. Microencapsulation by spray drying of bioactive compounds from cactus pear (Opuntia ficus-indica). Food Chemistry 114(2): 616–622.
Saguy, I. 1979. Thermostability of red beet pigments (Betanine and Vulgaxanthin–I): influence of pH and temperature. Journal of Food Science 44:1554–1555.
Sapers, G.M., and J.S. Hornstein 1979. Varietal differences in colorant properties and stability of red beet pigments. Journal of Food Science 44: 1245–1248.
Schliemann, W., and D. Strack. 1998. Intramolecular stabilization of acylated betacyanins. Phytochemistry 49(2): 585–588.
Schwartz, S.J., and J.H. von Elbe. 1983. Identification of betanin degradation products. Zeitschrift für Lebensmitteluntersuchung und-Forschung A 176(6): 448–453.
Schwartz, S., B. Hildenbrand, et al. 1981. Comparison of spectrophotometric and HPLC methods to quantify betacyanins. Journal of Food Science 46(1): 296–297.
Serris, G.S., and C.G. Biliaderis. 2001. Degradation kinetics of beetroot pigment encapsulated in polymeric matrices. Journal of the Science of Food and Agriculture 81(8): 691–700.
Shahidi, F. 1999. Chemicals via higher plant bioengineering. In Advances in Experimental Medicine and Biology, ed. F. Shahidi, et al. Vol. 464. New York: Kluwer Academic.
Shih, C.C., and R.C. Wiley. 1981. Betacyanine and betaxanthine decolorizing enzymes in the beet (Beta vulgaris L.) root. Journal of Food Science 47: 164–166.
Shin, K.S., H.N. Murthy, et al. 2003. Induction of betalain pigmentation in hairy roots of red beet under different radiation sources. Biologia Plantarum 47(1): 149–152.
Singer, J.W., and J.H. von Elbe. 1980. Degradation rates of Vulgaxanthine I. Journal of Food Science 45: 489–491.
Sivakumar, V., J.L. Anna, et al. 2009. Ultrasound assisted enhancement in natural dye extraction from beetroot for industrial applications and natural dyeing of leather. Ultrasonics Sonochemistry 16(6): 782–789.
Socaciu, C. 2007. Food colorants: Chemical and functional properties. Florida, USA: CRC.
Stintzing, F.C., and R. Carle. 2004. Functional properties of anthocyanins and betalains in plants, food, and in human nutrition. Trends in Food Science & Technology 15: 19–38.
Stintzing, F.C., and R. Carle. 2007. Betalains-emerging prospects for food scientists. Trends in Food Science and Technology 18(10): 514–525.
Stintzing, F.C., J. Conrad, I. Klaiber, U. Beifuss, and R. Carle. 2004. Structural investigations on betacyanin pigments by LC NMR and 2D NMR spectroscopy. Phytochemistry 65: 415–422.
Stintzing, F.C., A. Schieber, and R. Carle. 2002. Betacyanins in fruits from red-purple pitaya, Hylocereus polyrhizus (Weber) Britton & Rose. Food Chemistry 77: 101–106.
Stintzing, F.C., K.M. Herbach, et al. 2005. Color, betalain pattern, and antioxidant properties of cactus pear (Opuntia spp.) clones. Journal of Agricultural and Food Chemistry 53(2): 442–451.
Strack, D., T. Vogt, et al. 2003. Recent advances in betalain research. Phytochemistry 62(3): 247–269.
Tanaka, Y., N. Sasaki, and A. Ohmiya. 2008. Biosynthesis of plant pigments: Anthocyanins, betalains and carotenoids. The Plant Journal J54: 733–749.
Thimmaraju, R., N. Bhagyalakshmi, et al. 2003. Kinetics of pigment release from hairy root cultures of Beta vulgaris under the influence of pH, sonication, temperature and oxygen stress. Process Biochemistry 38(7): 1069–1076.
Thimmaraju, R., N. Bhagyalakshmi, V. Kumar, and G.A. Ravishankar. 2005. Peroxidase production from hairy root cultures of red beet (Beta vulgaris). Electronic Journal of Biotechnology 8: 185–196.
Tsai, P.J., C.H. Sheu, et al. 2009. Thermal and pH stability of betacyanin pigment of Djulis (Chenopodium formosanum) in Taiwan and their relation to antioxidant activity. Journal of Agricultural and Food Chemistry 58(2): 1020–1025.
Turker, N., Y. Coşkuner, et al. 2001. The effects of fermentation on the thermostability of the yellow-orange pigments extracted from cactus pear (Opuntia ficus-indica). European Food Research and Technology 212(2): 213–216.
von Elbe, J.H., and E.L. Attoe. 1985. Oxygen involvement in betanine degradation – Measurement of active oxygen species and oxidation reduction potentials. Food Chemistry 16(1): 49–67.
von Elbe, J., J. Klement, et al. 1974. Evaluation of betalain pigments as sausage colorants. Journal of Food Science 39(1): 128–132.
Wasserman, B., L. Eiberger, et al. 1984. Effect of hydrogen peroxide and phenolic compounds on horseradish peroxidase-catalysed decolorization of betalain pigments. Journal of Food Science 49: 536–538.
Wybraniec, S. 2005. Formation of decarboxylated betacyanins in heated purified betacyanin fractions from red beet root (Beta vulgaris L.) monitored by LC-MS/MS. Journal of Agricultural and Food Chemistry 53(9): 3483–3487.
Wybraniec, S., and T. Michałowski. 2011. New pathways of betanidin and betanin enzymatic oxidation. Journal of Agricultural and Food Chemistry 59(17): 9612–9622.
Wybraniec, S., I. Platzner, S. Geresh, H.E. Gottlieb, M. Haimberg, M. Mogilnitzki, et al. 2001. Betacyanins from vine cactus Hylocereus polyrhizus. Phytochemistry 58: 1209–1212.
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Manchali, S., Murthy, K.N.C., Nagaraju, S., Neelwarne, B. (2013). Stability of Betalain Pigments of Red Beet. In: Neelwarne, B. (eds) Red Beet Biotechnology. Springer, Boston, MA. https://doi.org/10.1007/978-1-4614-3458-0_3
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